Substructure Flexibility and Member-Level Load Capabilities for Floating Offshore Wind Turbines in OpenFAST: Preprint

Jason Jonkman, Emmanuel Branlard, Matthew Hall, Amy Robertson, Greg Hayman, Rick Damiani

Research output: Contribution to conferencePaper

Abstract

OpenFAST is an open-source, physics-based engineering tool applicable to the loads analysis of land-based and offshore wind turbines, including floating offshore wind turbines. The substructure for a floating wind turbine has historically been modeled in OpenFAST as a rigid body with hydrodynamic loads lumped at a point, which enabled the tool to predict the global response of the floating substructure, but not the structural loads within its individual members. This limitation is an impediment to designing floating substructures-let along newer designs that are more streamlined, flexible, and cost-effective. This paper presents the development plan of new capabilities in OpenFAST to model floating substructure flexibility and member-level loads, including the functional requirements and modeling approaches needed to understand and apply it correctly.
Original languageAmerican English
Number of pages11
StatePublished - 2019
EventInternational Offshore Wind Technical Conference (IOWTC) - St. Julian's, Malta
Duration: 3 Nov 20199 Nov 2019

Conference

ConferenceInternational Offshore Wind Technical Conference (IOWTC)
CitySt. Julian's, Malta
Period3/11/199/11/19

Bibliographical note

See NREL/CP-5000-76105 for paper as published in ASME proceedings

NREL Publication Number

  • NREL/CP-5000-74380

Keywords

  • aero-hydro-servo-elastics
  • floating offshore wind turbine
  • functional requirements
  • member-level loads
  • OpenFAST
  • substructure flexibility

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